Personal profile
Personal profile
Zhang Hongmei, Professor, doctoral supervisor. Teaching "Material Model and Numerical Method", "Plastic Forming Process" and other undergraduate courses; He has been engaged in the research of metal matrix composite design and preparation technology, material database and big data technology for a long time, responsible for the construction of national advanced backbone material system and platform, and has presided over national vertical scientific research projects such as natural science Foundation, pre-research common technology, and major projects. He has published more than 30 papers, authorized more than 20 patents, and applied for eight software Copyrights.
Research Interests
Research on Metal Matrix Composite Design and Preparation Technology, Material Database and Big Data Technology
Education
Sep. 1998 - Jul. 2002 Undergraduate, Shandong University
Sep. 2002 - Dec. 2007 Doctor of Shandong University
Sep. 2002 - Dec. 2007 Doctor of Shandong University
Professional Experience
In March 2008, he joined Beijing Institute of Technology
Research Achievement
1. Achieving high performance in graphite nano-flakes reinforced titanium matrix composites through a novel reaction interface design.X.N. Mu, H.M. Zhang*, P.W. Chen#, X.W. Cheng, L. Liu, Y.X. Ge, N. Xiong.Carbon,2021.175. 334-351.
2. Interface-dependent failure behaviours in graphene nanoflakes reinforced Ti matrix composites.X.N. Mu, P.W. Chen#, H.M. Zhang*, X.W. Cheng, L. Liu, Y.X. Ge. Materials Letters.2021.289.129422
3. Towards high performance GNFs/Ti composite through simultaneously manipulating laminated microstructure and interface reaction.X.N. Mu, H.M. Zhang*, P.W. Chen#, X.W. Cheng, B. Wang, L. Liu, Y.X. Ge, H. Q. Duan. Materials Science and Engineering: A,2021.814. 141230
4. Simultaneously enhancing strength and ductility in graphene nanoplatelets reinforced titanium (GNPs/Ti) composites through a novel three-dimensional interface design. Liang Liu, Yunkai Li, Hongmei Zhang *, Xingwang Cheng, Xiaonan Mu, Qunbo Fan, Yuxin Ge, Shengda Guo#. Composites Part B: Engineering.2021 (216): 108851-108866
5. Good strength-plasticity compatibility in graphene nanoplatelets/Ti composites by strengthening the interface bonding via in-situ formed TiB whisker. Liang Liu, Yunkai Li, Hongmei Zhang *, Xingwang Cheng, Xiaonan Mu, Qunbo Fan, Shengda Guo#. Ceramics International.2020 (47): 4338-4343.
6. The role of interfacial reaction on dynamic mechanical response in graphene nano-flake/Ti composites.X.N. Mu, H.N. Cai#, H.M. Zhang*, Q.B. Fan, X.W. Cheng, F.C. Wang#, Z.H. Zhang#, Y.X. Ge, S Chang, Y.N. Liu, H.Q. Duan.Carbon.2019.152.986-990.
2. Interface-dependent failure behaviours in graphene nanoflakes reinforced Ti matrix composites.X.N. Mu, P.W. Chen#, H.M. Zhang*, X.W. Cheng, L. Liu, Y.X. Ge. Materials Letters.2021.289.129422
3. Towards high performance GNFs/Ti composite through simultaneously manipulating laminated microstructure and interface reaction.X.N. Mu, H.M. Zhang*, P.W. Chen#, X.W. Cheng, B. Wang, L. Liu, Y.X. Ge, H. Q. Duan. Materials Science and Engineering: A,2021.814. 141230
4. Simultaneously enhancing strength and ductility in graphene nanoplatelets reinforced titanium (GNPs/Ti) composites through a novel three-dimensional interface design. Liang Liu, Yunkai Li, Hongmei Zhang *, Xingwang Cheng, Xiaonan Mu, Qunbo Fan, Yuxin Ge, Shengda Guo#. Composites Part B: Engineering.2021 (216): 108851-108866
5. Good strength-plasticity compatibility in graphene nanoplatelets/Ti composites by strengthening the interface bonding via in-situ formed TiB whisker. Liang Liu, Yunkai Li, Hongmei Zhang *, Xingwang Cheng, Xiaonan Mu, Qunbo Fan, Shengda Guo#. Ceramics International.2020 (47): 4338-4343.
6. The role of interfacial reaction on dynamic mechanical response in graphene nano-flake/Ti composites.X.N. Mu, H.N. Cai#, H.M. Zhang*, Q.B. Fan, X.W. Cheng, F.C. Wang#, Z.H. Zhang#, Y.X. Ge, S Chang, Y.N. Liu, H.Q. Duan.Carbon.2019.152.986-990.
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Closed-loop inverse design of titanium alloys with multi-objective performance via multimodal data-driven modeling
Wei, Q., Zhao, P., Zhang, H., Wang, Y. & Cheng, X., Mar 2026, In: Results in Engineering. 29, 109298.Research output: Contribution to journal › Article › peer-review
Open Access -
Computational modeling and interpretability analysis of manufacturing parameters in titanium matrix composites
Wei, Q., Zhang, H., Cheng, X., Zhao, P., Fan, Q., Mu, X., Wang, Y., Wang, H. & Zhang, J., 5 Apr 2026, In: Computational Materials Science. 268, 114624.Research output: Contribution to journal › Article › peer-review
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Superior static and dynamic mechanical properties and high energy absorption in TiBw-TiCp reinforced TC4/Ti composites enabled by heterostructure design
Wang, H., Zhang, H., Cheng, X., Mu, X., Li, P., Wang, Y., Wei, Q., Duan, H., Chen, X., Sun, Y. & Mahmood, N., May 2026, In: Materials Science and Engineering: A. 959, 150002.Research output: Contribution to journal › Article › peer-review
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Synthesis, Sintering, and Characterization of Composites
Guo, B., Mu, X., Zhang, H. & Cheng, X., Mar 2026, In: Materials. 19, 6, 1130.Research output: Contribution to journal › Editorial
Open Access -
Achieving high oxygen tolerance in Ti6Al4V: Copper-oxygen co-doping strategy for ultrahigh strength-ductility balance
Duan, H., Zhang, H., Cheng, X., Mu, X., Fan, Q., Zhang, Y., Xiong, N., Feng, K., Wang, Y., Li, X., Cai, T. & Zheng, K., Nov 2025, In: Materials and Design. 259, 114719.Research output: Contribution to journal › Article › peer-review
Open Access2 Link opens in a new tab Citations (Scopus)